JPH01201343A - Luminescent synthetic resin product - Google Patents

Abstract

PURPOSE:To improve the luminescence of the product without increasing the content of a light-storing pigment, by molding a material obtained by mixing a synthetic resin powder with a light-storing pigment powder and an aluminum metal powder. CONSTITUTION:A synthetic resin powder is mixed with a light-storing pigment powder and an aluminum metal powder to obtain a raw material. This material is molded into any desired shape.

Description

[Detailed Description of the Invention] <Industrial Application Field> The present invention relates to synthetic resin products in which luminescent properties are imparted to molded products, and more specifically, to fibers, ropes, woven fabrics, sheets, plates, and other synthetic resin products. This invention relates to a luminescent synthetic resin product in which a phosphorescent pigment powder is mixed into a resin powder raw material to form a product raw material, which is then molded to impart luminescence to the manufactured product.

<Prior Art> Conventionally, a technique is generally known in which a luminescent pigment powder is mixed into a synthetic resin powder raw material to form a product raw material, and this is molded by a conventional method to produce a luminescent synthetic resin product.

<Problems to be Solved by the Invention> The conventional technology involves mixing an appropriate amount of phosphorescent pigment powder into the resin powder raw material (adding an excessive amount of antioxidant if desired), and eliminating the starvation mixture. Molded using raw materials using conventional methods,
It is a product. Although this product has luminescent properties, it has the following points that could be improved.

That is, when the above-mentioned conventional product is irradiated with light from the outside, it stores this light and emits light, but this is caused solely by the action of the phosphorescent pigment in the product. Therefore, the prior art has a problem in that the luminous intensity is relatively low.

By the way, it seems that the magnitude of luminescence can be changed depending on the content of luminous pigment in the product raw material. However, even if the amount of phosphorescent pigment added is increased, there is a limit to the amount of luminescence that can be increased, and if the ratio of pigment in the raw material is too high, the quality of the resin product will be degraded.

The present invention has been made in view of the above points,
The objective is to provide a light-emitting synthetic resin product that can greatly increase luminescence intensity without changing the ratio of luminescent pigment to resin raw material.

Means for Solving the Problems> In order to achieve the above object, the present invention mixes aluminum-based metal powder as a luminescence enhancer. That is, the present invention is characterized in that a suitable amount of phosphorescent pigment powder and aluminum metal powder are mixed into a synthetic resin powder raw material to obtain a product raw material, and this product raw material is molded by a conventional method.

Function> When the product of the present invention is irradiated with light from the outside, this light is stored in the phosphorescent pigment contained in the product and emits light, but this light is enhanced by the aluminum metal powder contained in the product. As a result, the luminous intensity will be greatly increased. This was discovered through experiments, and it is believed that the reason why luminescence is increased by including aluminum-based metal powder is as follows. That is, when the phosphorescent pigment emits light, this light is diffusely reflected by the aluminum-based metal powder, which is considered to be the cause of the increase in luminescence intensity.

<Examples> Hereinafter, examples of the present invention will be explained with reference to the drawings. , 1-/ are luminescent synthetic resin products showing one example of the present invention. This product is manufactured by molding fibers. In this example, a product raw material is obtained by mixing a luminescent pigment and an aluminum metal powder into a powder raw material of a desired synthetic resin fiber, and this is molded by a conventional method to obtain a fiber 1 containing a luminescent raw material having a desired diameter at °C. In this fiber 1, aluminum-based metal powder 2 is scattered throughout.

The above phosphorescent pigments can be selected from commercially available ones.
Further, as the aluminum-based metal powder, it is possible to use aluminum foil that has been crushed and ground into powder by an appropriate means, or aluminum metal that has been crushed in the same way.

The specific production thereof can be carried out, for example, as follows. That is, as shown in Figure 3, an appropriate amount of phosphorescent pigment powder B and aluminum metal powder C are mixed into a desired synthetic resin powder raw material A (as shown in the same figure) (at this time, an appropriate amount of oxidation is added as desired). The inhibitor is also mixed in (°C), and the mixture is stirred and mixed as shown in the same figure (e) to form the raw material for the product. This product raw material is formed into a "C fiber product" using a known forming machine using a conventional method.

The blending ratio of powder B and C to raw material A in the product raw material can be arbitrarily selected. For example, as an example, the ratio of each of the powders A, B, and C is 100:
An example of a ratio of 50:10 can be given. However, this ratio can be freely changed according to the type of product to be assembled and its intended use.

FIG. 72 shows another embodiment of the present invention. In this embodiment, fibers 1 formed as in the embodiment of FIG. 17 are used and twisted together to produce a rope 3. The ropes of this series are suitable, for example, as ropes for fishing nets and fishing nets, as well as marking ropes for boundaries and bridges.

Figure 3 shows a fabric 4 (fabric) produced by weaving the fibers 1 produced in the same manner as above.

The woven fabric 4 of this embodiment is suitable for use as a sheet for various signs.

The figure shows a flexible sheet material or a hard plate-shaped body 5 produced by molding the above-mentioned product raw material using a conventional method using a well-known method. The products of this implementation will be used as board materials for various signs as shown in Fig. 3.

It should be noted that the present invention can be broadly applied to other synthetic resin products of the Examples.

<Effects of the Invention> As explained above, the present invention is a product raw material by mixing an appropriate amount of phosphorescent pigment and aluminum metal powder into a synthetic resin powder raw material, which is then molded by a conventional method to produce a synthetic resin product. Because of this, manufacturing is simple and the luminescence intensity of the molded product can be greatly increased without changing the mixing ratio of the phosphorescent pigment to the resin powder raw material.

[Brief explanation of the drawing]

Figures 17 and 17 are diagrams showing respective embodiments of the light-emitting synthetic resin product according to the present invention. Figures H) to E) are diagrams showing the manufacturing process of product raw materials. A... Synthetic resin powder raw material B... Luminous pigment powder C... Aluminum metal powder D... Material raw material patent applicant Masayoshi Takei

Claims (1)

[Claims] (1) A light-emitting synthetic resin product made by mixing an appropriate amount of phosphorescent pigment powder and aluminum metal powder into a synthetic resin powder raw material to form a product raw material, and molding this product raw material by a conventional method.